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  • Question 1 - Whilst an inpatient for a chest infection, a 65-year-old man is seen by...

    Correct

    • Whilst an inpatient for a chest infection, a 65-year-old man is seen by the hospital's diabetic specialist nurse. Despite trying various medications, his diabetic control has been generally inadequate. His latest blood test shows his HbA1c to still be above the normal range. The specialist nurse decides to initiate a new medication and advises the GP to review with a repeat blood test in a few months. The patient is cautioned about severe adverse effects, particularly Fournier gangrene.

      What is the mechanism of action of the prescribed medication?

      Your Answer: Inhibits sodium-glucose co-transporter 2

      Explanation:

      SGLT-2 inhibitors work by inhibiting the sodium-glucose co-transporter 2 (SGLT-2) in the renal proximal convoluted tubule. This class of drugs includes empagliflozin and dapagliflozin and can lead to weight loss. However, they may also cause urinary/genital infections and normoglycaemic ketoacidosis. Fournier gangrene is a known serious adverse effect of this drug class.

      Thiazolidinedione drugs, such as pioglitazone, activate peroxisome proliferator-activated receptor-gamma (PPAR gamma). This receptor complex affects various target genes, ultimately decreasing insulin resistance and causing other effects.

      Sulfonylureas, like gliclazide, block ATP-sensitive potassium channels. These drugs may cause weight gain and induce hypoglycaemia.

      GLP-1 mimetics, including exenatide, activate glucagon-like peptide 1 receptors. This relatively new class of drug can lead to weight loss but is not widely used in diabetic guidelines.

      DPP4 inhibitors, such as sitagliptin and linagliptin, work by inhibiting dipeptidyl peptidase-4 (DPP4). This ultimately leads to increased levels of incretin circulation, similar to GLP-1 mimetics.

      Understanding SGLT-2 Inhibitors

      SGLT-2 inhibitors are medications that work by blocking the reabsorption of glucose in the kidneys, leading to increased excretion of glucose in the urine. This mechanism of action helps to lower blood sugar levels in patients with type 2 diabetes mellitus. Examples of SGLT-2 inhibitors include canagliflozin, dapagliflozin, and empagliflozin.

      However, it is important to note that SGLT-2 inhibitors can also have adverse effects. Patients taking these medications may be at increased risk for urinary and genital infections due to the increased glucose in the urine. Fournier’s gangrene, a rare but serious bacterial infection of the genital area, has also been reported. Additionally, there is a risk of normoglycemic ketoacidosis, a condition where the body produces high levels of ketones even when blood sugar levels are normal. Finally, patients taking SGLT-2 inhibitors may be at increased risk for lower-limb amputations, so it is important to closely monitor the feet.

      Despite these potential risks, SGLT-2 inhibitors can also have benefits. Patients taking these medications often experience weight loss, which can be beneficial for those with type 2 diabetes mellitus. Overall, it is important for patients to discuss the potential risks and benefits of SGLT-2 inhibitors with their healthcare provider before starting treatment.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 2 - A 23-year-old woman presents with clinical manifestations of hyperthyroidism and is diagnosed with...

    Incorrect

    • A 23-year-old woman presents with clinical manifestations of hyperthyroidism and is diagnosed with Graves disease. What is the most appropriate explanation for the pathophysiology of this condition?

      Your Answer: Formation of IgM antibodies to the TSH receptors on the thyroid gland

      Correct Answer: Formation of IgG antibodies to the TSH receptors on the thyroid gland

      Explanation:

      Graves disease typically results in the formation of IgG antibodies that target the TSH receptors located on the thyroid gland, leading to a significant decrease in TSH levels.

      Thyroid Hormones and LATS in Graves Disease

      Thyroid hormones are produced by the thyroid gland and include triiodothyronine (T3) and thyroxine (T4), with T3 being the major hormone active in target cells. The synthesis and secretion of these hormones involves the active concentration of iodide by the thyroid, which is then oxidized and iodinated by peroxidase in the follicular cells. This process is stimulated by thyroid-stimulating hormone (TSH), which is released by the pituitary gland. The normal thyroid has approximately three months’ worth of reserves of thyroid hormones.

      In Graves disease, patients develop IgG antibodies to the TSH receptors on the thyroid gland. This results in chronic and long-term stimulation of the gland with the release of thyroid hormones. As a result, individuals with Graves disease typically have raised thyroid hormones and low TSH levels. It is important to check for thyroid receptor autoantibodies in individuals presenting with hyperthyroidism, as they are present in up to 85% of cases. This condition is known as LATS (long-acting thyroid stimulator) and can lead to a range of symptoms and complications if left untreated.

    • This question is part of the following fields:

      • Endocrine System
      16
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  • Question 3 - A 60-year-old patient visits their doctor complaining of dehydration caused by vomiting and...

    Incorrect

    • A 60-year-old patient visits their doctor complaining of dehydration caused by vomiting and diarrhoea. The kidneys detect reduced renal perfusion, leading to activation of the renin-angiotensin-aldosterone system. What is the specific part of the adrenal gland required for this system?

      Your Answer: Juxtaglomerular cells

      Correct Answer: Zona glomerulosa

      Explanation:

      Aldosterone is produced in the zona glomerulosa of the adrenal gland.

      Renin is released by juxtaglomerular cells located in the nephron.

      ACE is produced by the pulmonary endothelium in the lungs.

      The adrenal gland is composed of the zona glomerulosa, fasciculata, and reticularis.

      Glucocorticoids are produced in the zona fasciculata.

      Adrenal Physiology: Medulla and Cortex

      The adrenal gland is composed of two main parts: the medulla and the cortex. The medulla is responsible for secreting the catecholamines noradrenaline and adrenaline, which are released in response to sympathetic nervous system stimulation. The chromaffin cells of the medulla are innervated by the splanchnic nerves, and the release of these hormones is triggered by the secretion of acetylcholine from preganglionic sympathetic fibers. Phaeochromocytomas, which are tumors derived from chromaffin cells, can cause excessive secretion of both adrenaline and noradrenaline.

      The adrenal cortex is divided into three distinct zones: the zona glomerulosa, zona fasciculata, and zona reticularis. Each zone is responsible for secreting different hormones. The outer zone, zona glomerulosa, secretes aldosterone, which regulates electrolyte balance and blood pressure. The middle zone, zona fasciculata, secretes glucocorticoids, which are involved in the regulation of metabolism, immune function, and stress response. The inner zone, zona reticularis, secretes androgens, which are involved in the development and maintenance of male sex characteristics.

      Most of the hormones secreted by the adrenal cortex, including glucocorticoids and aldosterone, are bound to plasma proteins in the circulation. Glucocorticoids are inactivated and excreted by the liver. Understanding the physiology of the adrenal gland is important for the diagnosis and treatment of various endocrine disorders.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 4 - A 15-year-old male arrives at the emergency department with complaints of abdominal pain,...

    Incorrect

    • A 15-year-old male arrives at the emergency department with complaints of abdominal pain, nausea, and shortness of breath. He has a history of insulin-dependent diabetes and is diagnosed with diabetic ketoacidosis after undergoing tests. During treatment, which electrolyte should you be particularly cautious of, as it may become depleted in the body despite appearing normal in plasma concentrations?

      Your Answer: Calcium

      Correct Answer: Potassium

      Explanation:

      Insulin normally helps to move potassium into cells, but in a state of ketoacidosis, there is a lack of insulin to perform this function. As a result, potassium leaks out of cells. Additionally, high levels of glucose in the blood lead to glycosuria in the urine, causing potassium loss through the kidneys.

      Even though patients in a ketoacidotic state may have normal levels of potassium in their blood, their overall potassium levels in the body are often depleted. When insulin is administered to these patients, it can cause a dangerous drop in potassium levels as the minimal amount of potassium left in the body is driven into cells.

      Diabetic ketoacidosis (DKA) is a serious complication of type 1 diabetes mellitus, accounting for around 6% of cases. It can also occur in rare cases of extreme stress in patients with type 2 diabetes mellitus. DKA is caused by uncontrolled lipolysis, resulting in an excess of free fatty acids that are converted to ketone bodies. The most common precipitating factors of DKA are infection, missed insulin doses, and myocardial infarction. Symptoms include abdominal pain, polyuria, polydipsia, dehydration, Kussmaul respiration, and breath that smells like acetone. Diagnostic criteria include glucose levels above 11 mmol/l or known diabetes mellitus, pH below 7.3, bicarbonate below 15 mmol/l, and ketones above 3 mmol/l or urine ketones ++ on dipstick.

      Management of DKA involves fluid replacement, insulin, and correction of electrolyte disturbance. Fluid replacement is necessary as most patients with DKA are deplete around 5-8 litres. Isotonic saline is used initially, even if the patient is severely acidotic. Insulin is administered through an intravenous infusion, and correction of electrolyte disturbance is necessary. Long-acting insulin should be continued, while short-acting insulin should be stopped. Complications may occur from DKA itself or the treatment, such as gastric stasis, thromboembolism, arrhythmias, acute respiratory distress syndrome, acute kidney injury, and cerebral edema. Children and young adults are particularly vulnerable to cerebral edema following fluid resuscitation in DKA and often need 1:1 nursing to monitor neuro-observations, headache, irritability, visual disturbance, focal neurology, etc.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 5 - A 30-year-old woman complains of menstrual irregularity and galactorrhoea for the past year....

    Incorrect

    • A 30-year-old woman complains of menstrual irregularity and galactorrhoea for the past year. She also experiences occasional headaches. During examination, she was found to have bitemporal superior quadrantanopia. What is the most probable diagnosis?

      Your Answer: Tumour of the hypothalamus

      Correct Answer: Prolactinoma

      Explanation:

      Prolactinomas cause amenorrhoea, infertility, and galactorrhoea. If the tumour extends outside the sella, visual field defects or other mass effects may occur. Other types of tumours will produce different symptoms depending on their location and structure involved. Craniopharyngiomas originate from the pituitary gland and will produce poralhemianopia if large enough, as well as symptoms related to pituitary hormones. Non-functioning pituitary tumours will have similar symptoms without the pituitary hormone side effects. Tumours of the hypothalamus will present with symptoms of euphoria, headache, weight loss, and mass effect if large enough.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 6 - These results were obtained on a 30-year-old male who has presented with tiredness:
    Free...

    Incorrect

    • These results were obtained on a 30-year-old male who has presented with tiredness:
      Free T4 9.3 pmol/L (9.8-23.1)
      TSH 49.31 mU/L (0.35-5.50)
      What signs might be expected in this case?

      Your Answer: Fine tremor over outstretched hands

      Correct Answer: Slow relaxation of biceps reflex

      Explanation:

      Diagnosis and Symptoms of Hypothyroidism

      Hypothyroidism is diagnosed through blood tests that show low levels of T4 and elevated levels of TSH. Physical examination may reveal slow relaxation of tendon jerks, bradycardia, and goitre. A bruit over a goitre is associated with Graves’ thyrotoxicosis, while palmar erythema and fine tremor occur in thyrotoxicosis. In addition to these common symptoms, hypothyroidism may also present with rarer features such as cerebellar features, compression neuropathies, hypothermia, and macrocytic anaemia. It is important to diagnose and treat hypothyroidism promptly to prevent further complications.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 7 - A 25-year-old female visits her GP complaining of chronic thirst, polyuria, and nocturia...

    Correct

    • A 25-year-old female visits her GP complaining of chronic thirst, polyuria, and nocturia that have persisted for 2 months. She has a medical history of premenstrual dysphoric disorder diagnosed 3 years ago. After a series of tests, the patient is diagnosed with primary polydipsia. What results are expected from her water deprivation test?

      Your Answer: High urine osmolality after both fluid deprivation and desmopressin

      Explanation:

      The patient has primary polydipsia, a psychogenic disorder causing excessive drinking despite being hydrated. Urine osmolality is high after both fluid deprivation and desmopressin, as the patient still produces and responds to ADH. Low urine osmolality after both fluid deprivation and desmopressin is typical of nephrogenic DI, while low urine osmolality after fluid deprivation but high after desmopressin is typical of cranial DI. Low urine osmolality after desmopressin and low urine osmolality after fluid deprivation but normal after desmopressin are not commonly seen with any pathological state.

      The water deprivation test is a diagnostic tool used to assess patients with polydipsia, or excessive thirst. During the test, the patient is instructed to refrain from drinking water, and their bladder is emptied. Hourly measurements of urine and plasma osmolalities are taken to monitor changes in the body’s fluid balance. The results of the test can help identify the underlying cause of the patient’s polydipsia. Normal results show a high urine osmolality after the administration of DDAVP, while psychogenic polydipsia is characterized by a low urine osmolality. Cranial DI and nephrogenic DI are both associated with high plasma osmolalities and low urine osmolalities.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 8 - A 38-year-old woman visits her GP after being prescribed carbimazole for Grave's disease....

    Incorrect

    • A 38-year-old woman visits her GP after being prescribed carbimazole for Grave's disease. The GP must inform her of crucial side effects that require immediate medical attention if they occur. What is the most significant side effect?

      Your Answer: Changes in vision

      Correct Answer: Sore throat

      Explanation:

      Carbimazole, although generally safe, can have a rare but severe side effect of bone marrow suppression. This can lead to a weakened immune system due to low white blood cells, specifically neutrophils, resulting in neutropenia and agranulocytosis. The most common symptom of this is a sore throat, and if this occurs, treatment with carbimazole should be discontinued.

      Hair loss and headaches are common side effects but are not considered harmful to the patient’s health. Other reported side effects include nausea, stomach pains, itchy skin, rashes, and muscle and joint pain.

      It is important to note that chest pain and changes in vision are not known side effects of carbimazole.

      Carbimazole is a medication used to treat thyrotoxicosis, a condition where the thyroid gland produces too much thyroid hormone. It is usually given in high doses for six weeks until the patient’s thyroid hormone levels become normal, after which the dosage is reduced. The drug works by blocking thyroid peroxidase, an enzyme that is responsible for coupling and iodinating the tyrosine residues on thyroglobulin, which ultimately leads to a reduction in thyroid hormone production. In contrast, propylthiouracil has a dual mechanism of action, inhibiting both thyroid peroxidase and 5′-deiodinase, which reduces the peripheral conversion of T4 to T3.

      However, carbimazole is not without its adverse effects. One of the most serious side effects is agranulocytosis, a condition where the body’s white blood cell count drops significantly, making the patient more susceptible to infections. Additionally, carbimazole can cross the placenta and affect the developing fetus, although it may be used in low doses during pregnancy under close medical supervision. Overall, carbimazole is an effective medication for managing thyrotoxicosis, but its potential side effects should be carefully monitored.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 9 - A 45-year-old woman comes to the clinic complaining of polyuria. Upon further inquiry,...

    Incorrect

    • A 45-year-old woman comes to the clinic complaining of polyuria. Upon further inquiry, she reports experiencing polyphagia and polydipsia as well. Her blood test reveals hyperglycaemia and low C-peptide levels.

      What is the underlying mechanism causing her hyperglycaemia?

      Your Answer: Increased SGLT-2 expression

      Correct Answer: Decreased GLUT-4 expression

      Explanation:

      The movement of glucose into cells requires insulin. In this case, the patient is likely suffering from type 1 diabetes mellitus or latent autoimmune diabetes in adults (LADA) with low c-peptide levels, indicating a complete lack of insulin. As a result, insulin is unable to stimulate the expression of GLUT-4, which significantly reduces the uptake of glucose into skeletal and adipose cells.

      The patient’s low GLUT-1 expression is unlikely to be the cause of hyperglycemia. GLUT-1 is primarily expressed in fetal tissues and has a higher affinity for oxygen, allowing fetal cells to survive even in hypoglycemic conditions.

      GLUT-2 expression is mainly found in hepatocytes and beta-cells of the pancreas. It allows for the bi-directional movement of glucose, equalizing glucose concentrations inside and outside the cell membrane, and enabling glucose-sensitive cells to measure serum glucose levels and respond accordingly.

      GLUT-3 expression is mainly found in neuronal cells and has a high affinity, similar to GLUT-1. This allows for the survival of brain cells in hypoglycemic conditions.

      Insulin is a hormone produced by the pancreas that plays a crucial role in regulating the metabolism of carbohydrates and fats in the body. It works by causing cells in the liver, muscles, and fat tissue to absorb glucose from the bloodstream, which is then stored as glycogen in the liver and muscles or as triglycerides in fat cells. The human insulin protein is made up of 51 amino acids and is a dimer of an A-chain and a B-chain linked together by disulfide bonds. Pro-insulin is first formed in the rough endoplasmic reticulum of pancreatic beta cells and then cleaved to form insulin and C-peptide. Insulin is stored in secretory granules and released in response to high levels of glucose in the blood. In addition to its role in glucose metabolism, insulin also inhibits lipolysis, reduces muscle protein loss, and increases cellular uptake of potassium through stimulation of the Na+/K+ ATPase pump.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 10 - A 57-year-old man comes to the diabetes clinic for a check-up. He has...

    Incorrect

    • A 57-year-old man comes to the diabetes clinic for a check-up. He has a medical history of type 2 diabetes, which is currently managed with metformin and sitagliptin, and hypertension, for which he takes ramipril. His recent blood tests show an increase in HbA1c from 51mmol/L to 59mmol/L. He has not experienced any hypoglycaemic events and reports good adherence to his medication and blood glucose monitoring. He expresses interest in trying an additional antidiabetic medication and is prescribed tolbutamide after receiving counselling on hypoglycaemic awareness.

      What is the mechanism of action of tolbutamide?

      Your Answer: Inhibits the enzyme dipeptyl peptidase-4 (DPP-4), preventing the degradation of incretins such as GLP-1

      Correct Answer: Binds to and shuts pancreatic beta cell ATP-dependent K+ channels, causing membrane depolarisation and increased insulin exocytosis

      Explanation:

      Sulfonylureas are a type of medication used to treat type 2 diabetes mellitus. They work by increasing the amount of insulin produced by the pancreas, but only if the beta cells in the pancreas are functioning properly. Sulfonylureas bind to a specific channel on the cell membrane of pancreatic beta cells, known as the ATP-dependent K+ channel (KATP).

      While sulfonylureas can be effective in managing diabetes, they can also cause some adverse effects. The most common side effect is hypoglycemia, which is more likely to occur with long-acting preparations like chlorpropamide. Another common side effect is weight gain. However, there are also rarer side effects that can occur, such as hyponatremia (low sodium levels) due to inappropriate ADH secretion, bone marrow suppression, hepatotoxicity (liver damage), and peripheral neuropathy.

      It is important to note that sulfonylureas should not be used during pregnancy or while breastfeeding.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 11 - An 80-year-old patient, Gwyneth, is being examined by her physician for recurring dizziness...

    Incorrect

    • An 80-year-old patient, Gwyneth, is being examined by her physician for recurring dizziness upon standing up, which is interfering with her daily activities. Gwyneth is in good health and does not take any regular medications. The physician diagnoses Gwyneth with orthostatic hypotension and prescribes fludrocortisone as a treatment.

      What is the most probable side effect that Gwyneth may encounter?

      Your Answer: Peptic ulceration

      Correct Answer: Fluid retention

      Explanation:

      Corticosteroids are a class of medications commonly prescribed for various clinical uses, such as treating allergies, inflammatory conditions, auto-immunity, and endogenous steroid replacement.

      There are different types of corticosteroids, each with varying levels of glucocorticoid and mineralocorticoid activity. Glucocorticoids mimic cortisol, which is involved in carbohydrate metabolism and the stress response, while mineralocorticoids mimic aldosterone, which regulates sodium and water retention in response to low blood pressure.

      The clinical uses and side effects of corticosteroids depend on their level of glucocorticoid and mineralocorticoid activity. Fludrocortisone, for example, has minimal glucocorticoid activity and high mineralocorticoid activity.

      Therefore, fluid retention is the most associated side effect with mineralocorticoid activity, while depression, hyperglycemia, osteoporosis, and peptic ulceration are side effects associated with glucocorticoid activity.

      Corticosteroids are commonly prescribed medications that can be taken orally or intravenously, or applied topically. They mimic the effects of natural steroids in the body and can be used to replace or supplement them. However, the use of corticosteroids is limited by their numerous side effects, which are more common with prolonged and systemic use. These side effects can affect various systems in the body, including the endocrine, musculoskeletal, gastrointestinal, ophthalmic, and psychiatric systems. Some of the most common side effects include impaired glucose regulation, weight gain, osteoporosis, and increased susceptibility to infections. Patients on long-term corticosteroids should have their doses adjusted during intercurrent illness, and the medication should not be abruptly withdrawn to avoid an Addisonian crisis. Gradual withdrawal is recommended for patients who have received high doses or prolonged treatment.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 12 - Which one of the following does not trigger insulin secretion? ...

    Correct

    • Which one of the following does not trigger insulin secretion?

      Your Answer: Atenolol

      Explanation:

      The release of insulin is prevented by beta blockers.

      Factors that trigger insulin release include glucose, amino acids, vagal cholinergic stimulation, secretin/gastrin/CCK, fatty acids, and beta adrenergic drugs.

      Insulin is a hormone produced by the pancreas that plays a crucial role in regulating the metabolism of carbohydrates and fats in the body. It works by causing cells in the liver, muscles, and fat tissue to absorb glucose from the bloodstream, which is then stored as glycogen in the liver and muscles or as triglycerides in fat cells. The human insulin protein is made up of 51 amino acids and is a dimer of an A-chain and a B-chain linked together by disulfide bonds. Pro-insulin is first formed in the rough endoplasmic reticulum of pancreatic beta cells and then cleaved to form insulin and C-peptide. Insulin is stored in secretory granules and released in response to high levels of glucose in the blood. In addition to its role in glucose metabolism, insulin also inhibits lipolysis, reduces muscle protein loss, and increases cellular uptake of potassium through stimulation of the Na+/K+ ATPase pump.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 13 - What is the crucial step in the production of all steroid hormones? ...

    Correct

    • What is the crucial step in the production of all steroid hormones?

      Your Answer: Conversion of cholesterol to pregnenolone

      Explanation:

      The Role of Pregnenolone in Steroid Hormone Synthesis

      In the production of steroid hormones in the human body, the conversion of cholesterol to pregnenolone is a crucial step. Pregnenolone serves as the precursor for all steroid hormones, and its formation is the limiting factor in the synthesis of these hormones. This conversion process occurs within the mitochondria of steroid-producing tissues. Essentially, the body needs to convert cholesterol to pregnenolone before it can produce any other steroid hormones. This highlights the importance of pregnenolone in the body’s endocrine system and its role in regulating various physiological processes.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 14 - These thyroid function tests were obtained on a 55-year-old female who has recently...

    Incorrect

    • These thyroid function tests were obtained on a 55-year-old female who has recently been treated for hypertension:
      Free T4 28.5 pmol/L (9.8-23.1)
      TSH <0.02 mU/L (0.35-5.5)
      Free T3 10.8 pmol/L (3.5-6.5)
      She now presents with typical symptoms of hyperthyroidism.
      Which medication is likely to have caused this?

      Your Answer: Atenolol

      Correct Answer: Amiodarone

      Explanation:

      Amiodarone and its Effects on Thyroid Function

      Amiodarone is a medication that can have an impact on thyroid function, resulting in both hypo- and hyperthyroidism. This is due to the high iodine content in the drug, which contributes to its antiarrhythmic effects. Atenolol, on the other hand, is a beta blocker that is commonly used to treat thyrotoxicosis. Warfarin is another medication that is used to treat atrial fibrillation.

      There are two types of thyrotoxicosis that can be caused by amiodarone. Type 1 results in excess thyroxine synthesis, while type 2 leads to the release of excess thyroxine but normal levels of synthesis. It is important for healthcare professionals to monitor thyroid function in patients taking amiodarone and adjust treatment as necessary to prevent complications.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 15 - A 55-year-old male visits his doctor complaining of a milky discharge from his...

    Incorrect

    • A 55-year-old male visits his doctor complaining of a milky discharge from his nipples. He has a history of schizophrenia and has been taking olanzapine for a while now. No recent changes have been made to his medication.

      Which compound with elevated levels is most likely causing this symptom?

      Your Answer: Prolactin, released from the posterior pituitary

      Correct Answer: Prolactin, released from the anterior pituitary

      Explanation:

      The patient is experiencing galactorrhea, which is commonly associated with hyperprolactinemia. Prolactin stimulates milk production in the mammary glands, and the patient’s hyperprolactinemia is likely due to his use of olanzapine, which acts as a dopamine antagonist. Dopamine normally inhibits prolactin secretion. The other answer choices are incorrect as they do not accurately explain the mechanism behind the patient’s presentation.

      Understanding Prolactin and Its Functions

      Prolactin is a hormone that is produced by the anterior pituitary gland. Its primary function is to stimulate breast development and milk production in females. During pregnancy, prolactin levels increase to support the growth and development of the mammary glands. It also plays a role in reducing the pulsatility of gonadotropin-releasing hormone (GnRH) at the hypothalamic level, which can block the action of luteinizing hormone (LH) on the ovaries or testes.

      The secretion of prolactin is regulated by dopamine, which constantly inhibits its release. However, certain factors can increase or decrease prolactin secretion. For example, prolactin levels increase during pregnancy, in response to estrogen, and during breastfeeding. Additionally, stress, sleep, and certain drugs like metoclopramide and antipsychotics can also increase prolactin secretion. On the other hand, dopamine and dopaminergic agonists can decrease prolactin secretion.

      Overall, understanding the functions and regulation of prolactin is important for reproductive health and lactation.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 16 - A 35-year-old woman is referred to the endocrine clinic due to missed periods...

    Correct

    • A 35-year-old woman is referred to the endocrine clinic due to missed periods and lactation. She has also gained weight and experiences vaginal dryness. The endocrinologist decides to measure her prolactin levels. What hormone is responsible for suppressing the release of prolactin from the pituitary gland?

      Your Answer: Dopamine

      Explanation:

      Dopamine consistently prevents the release of prolactin.

      Understanding Prolactin and Its Functions

      Prolactin is a hormone that is produced by the anterior pituitary gland. Its primary function is to stimulate breast development and milk production in females. During pregnancy, prolactin levels increase to support the growth and development of the mammary glands. It also plays a role in reducing the pulsatility of gonadotropin-releasing hormone (GnRH) at the hypothalamic level, which can block the action of luteinizing hormone (LH) on the ovaries or testes.

      The secretion of prolactin is regulated by dopamine, which constantly inhibits its release. However, certain factors can increase or decrease prolactin secretion. For example, prolactin levels increase during pregnancy, in response to estrogen, and during breastfeeding. Additionally, stress, sleep, and certain drugs like metoclopramide and antipsychotics can also increase prolactin secretion. On the other hand, dopamine and dopaminergic agonists can decrease prolactin secretion.

      Overall, understanding the functions and regulation of prolactin is important for reproductive health and lactation.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 17 - A 28-year-old woman comes to her outpatient appointment after being diagnosed with Grave's...

    Correct

    • A 28-year-old woman comes to her outpatient appointment after being diagnosed with Grave's disease. This condition is known for having three distinct signs, in addition to thyroid eye disease. What are the other signs?

      Your Answer: Thyroid acropachy & pretibial myxoedema

      Explanation:

      Grave’s disease is commonly linked to several other conditions, including thyroid eye disease, thyroid acropachy, and pretibial myxoedema.

      This autoimmune disease, known as Grave’s thyroiditis, is caused by antibodies that target the thyroid stimulating hormone (TSH) receptor, leading to prolonged stimulation.

      One of the most noticeable symptoms of Grave’s disease is exophthalmos, which occurs when TSH receptor antibodies bind to receptors at the back of the eye, causing inflammation and an increase in glycosaminoglycans. This results in swelling of the eye muscles and connective tissue.

      Pretibial myxoedema is a skin condition that often develops in individuals with Grave’s disease. It is characterized by localized lesions on the skin in front of the tibia, which are caused by an increase in glycosaminoglycans in the pretibial dermis.

      Thyroid acropachy is another condition associated with Grave’s disease, which involves swelling of soft tissues, clubbing of the fingers, and periosteal reactions in the extremities.

      Graves’ Disease: Common Features and Unique Signs

      Graves’ disease is the most frequent cause of thyrotoxicosis, which is commonly observed in women aged 30-50 years. The condition presents typical features of thyrotoxicosis, such as weight loss, palpitations, and heat intolerance. However, Graves’ disease also displays specific signs that are not present in other causes of thyrotoxicosis. These include eye signs, such as exophthalmos and ophthalmoplegia, as well as pretibial myxoedema and thyroid acropachy. The latter is a triad of digital clubbing, soft tissue swelling of the hands and feet, and periosteal new bone formation.

      Graves’ disease is characterized by the presence of autoantibodies, including TSH receptor stimulating antibodies in 90% of patients and anti-thyroid peroxidase antibodies in 75% of patients. Thyroid scintigraphy reveals a diffuse, homogenous, and increased uptake of radioactive iodine. These features help distinguish Graves’ disease from other causes of thyrotoxicosis and aid in its diagnosis.

    • This question is part of the following fields:

      • Endocrine System
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  • Question 18 - A 23-year-old male comes to his doctor with a 5-month history of headaches,...

    Incorrect

    • A 23-year-old male comes to his doctor with a 5-month history of headaches, palpitations, and excessive sweating. He also mentions unintentional weight loss. Upon examination, the patient is found to be tachycardic and sweating profusely. The doctor suspects that the man may have a tumor affecting the tissue responsible for producing adrenaline.

      What is the probable location of the tumor?

      Your Answer: Adrenal cortex

      Correct Answer: Adrenal medulla

      Explanation:

      The secretion of adrenaline is primarily carried out by the adrenal medulla. A patient with a phaeochromocytoma, a type of cancer that affects the adrenal medulla, may experience symptoms such as tachycardia, headaches, and sweating due to excess adrenaline production.

      The adrenal cortex, which surrounds the adrenal medulla, is not involved in adrenaline synthesis. It is responsible for producing mineralocorticoids, glucocorticoids, and androgens.

      The medulla oblongata, located in the brainstem, regulates essential bodily functions but is not responsible for adrenaline secretion.

      The parathyroid gland, which produces parathyroid hormone to regulate calcium metabolism, is not related to adrenaline secretion.

      The Function of Adrenal Medulla

      The adrenal medulla is responsible for producing almost all of the adrenaline in the body, along with small amounts of noradrenaline. Essentially, it is a specialized and enlarged sympathetic ganglion. This gland plays a crucial role in the body’s response to stress and danger, as adrenaline is a hormone that prepares the body for the fight or flight response. When the body perceives a threat, the adrenal medulla releases adrenaline into the bloodstream, which increases heart rate, blood pressure, and respiration, while also dilating the pupils and increasing blood flow to the muscles. This response helps the body to react quickly and effectively to danger. Overall, the adrenal medulla is an important component of the body’s stress response system.

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      • Endocrine System
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  • Question 19 - A 25-year-old woman presents to the endocrinology clinic with a diagnosis of Grave's...

    Incorrect

    • A 25-year-old woman presents to the endocrinology clinic with a diagnosis of Grave's disease. The diagnosis was made based on her elevated levels of thyroid hormones T3 and T4, as well as symptoms of heat intolerance, weight loss, and tremors. Typically, where are the receptors for thyroid hormones found?

      Your Answer: Rough endoplasmic reticulum

      Correct Answer: Nucleus

      Explanation:

      Thyroid hormones can enter cells through diffusion or carriers. Once inside, they bind to intracellular DNA-binding proteins called thyroid hormone receptors located in the nucleus. This binding forms a complex that attaches to the thyroid hormone responsive element on DNA. The outcome of this process is an increase in mRNA production, protein synthesis, Na/K ATPase, mitochondrial function leading to higher oxygen consumption, and adrenoceptors.

      Thyroid disorders are commonly encountered in clinical practice, with hypothyroidism and thyrotoxicosis being the most prevalent. Women are ten times more likely to develop these conditions than men. The thyroid gland is a bi-lobed structure located in the anterior neck and is part of a hypothalamus-pituitary-end organ system that regulates the production of thyroxine and triiodothyronine hormones. These hormones help regulate energy sources, protein synthesis, and the body’s sensitivity to other hormones. Hypothyroidism can be primary or secondary, while thyrotoxicosis is mostly primary. Autoimmunity is the leading cause of thyroid problems in the developed world.

      Thyroid disorders can present in various ways, with symptoms often being the opposite depending on whether the thyroid gland is under or overactive. For example, hypothyroidism may result in weight gain, while thyrotoxicosis leads to weight loss. Thyroid function tests are the primary investigation for diagnosing thyroid disorders. These tests primarily look at serum TSH and T4 levels, with T3 being measured in specific cases. TSH levels are more sensitive than T4 levels for monitoring patients with existing thyroid problems.

      Treatment for thyroid disorders depends on the cause. Patients with hypothyroidism are given levothyroxine to replace the underlying deficiency. Patients with thyrotoxicosis may be treated with propranolol to control symptoms such as tremors, carbimazole to reduce thyroid hormone production, or radioiodine treatment.

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  • Question 20 - A 16-year-old patient presents to his GP with concerns about his physical development....

    Correct

    • A 16-year-old patient presents to his GP with concerns about his physical development. The patient reports feeling self-conscious about his body shape and experiencing bullying at school. On examination, the patient is noted to have gynaecomastia and microorchidism. The patient is referred to a paediatrician, who subsequently refers the patient to the genetics team. As part of their assessment, the genetics team orders a karyotype.

      What karyotype results would be expected for this patient, given the likely diagnosis?

      Your Answer: Klinefelter syndrome (47,XXY)

      Explanation:

      Understanding Klinefelter’s Syndrome

      Klinefelter’s syndrome is a genetic condition that is characterized by an extra X chromosome, resulting in a karyotype of 47, XXY. Individuals with this syndrome often have a taller than average stature, but lack secondary sexual characteristics. They may also have small, firm testes and be infertile. Gynaecomastia, or the development of breast tissue, is also common in individuals with Klinefelter’s syndrome, and there is an increased risk of breast cancer. Despite elevated levels of gonadotrophins, testosterone levels are typically low.

      Diagnosis of Klinefelter’s syndrome is made through karyotyping, which involves analyzing an individual’s chromosomes. It is important for individuals with this condition to receive appropriate medical care and support, as well as genetic counseling for family planning.

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      • Endocrine System
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  • Question 21 - A young man comes to the clinic with symptoms suggestive of mania. After...

    Incorrect

    • A young man comes to the clinic with symptoms suggestive of mania. After further inquiry and assessment, he is found to have tachycardia, sweaty palms, and a recent bout of diarrhea. What is the probable diagnosis?

      Your Answer: Hashimoto's thyroiditis

      Correct Answer: Grave's disease

      Explanation:

      The correct diagnosis for this patient is Grave’s disease, which is characterized by hyperthyroidism. While mania may be a symptom, it is important to note that tachycardia, sweaty hands, and exophthalmos are specific to Grave’s disease.

      Bipolar disorder may also present with manic episodes, but it does not typically include the other symptoms associated with hyperthyroidism.

      Hashimoto’s thyroiditis is another autoimmune thyroid disorder, but it causes hypothyroidism instead of hyperthyroidism. Symptoms of hypothyroidism may include bradycardia and dry skin.

      Graves’ Disease: Common Features and Unique Signs

      Graves’ disease is the most frequent cause of thyrotoxicosis, which is commonly observed in women aged 30-50 years. The condition presents typical features of thyrotoxicosis, such as weight loss, palpitations, and heat intolerance. However, Graves’ disease also displays specific signs that are not present in other causes of thyrotoxicosis. These include eye signs, such as exophthalmos and ophthalmoplegia, as well as pretibial myxoedema and thyroid acropachy. The latter is a triad of digital clubbing, soft tissue swelling of the hands and feet, and periosteal new bone formation.

      Graves’ disease is characterized by the presence of autoantibodies, including TSH receptor stimulating antibodies in 90% of patients and anti-thyroid peroxidase antibodies in 75% of patients. Thyroid scintigraphy reveals a diffuse, homogenous, and increased uptake of radioactive iodine. These features help distinguish Graves’ disease from other causes of thyrotoxicosis and aid in its diagnosis.

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      • Endocrine System
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  • Question 22 - You have been requested to evaluate a patient in your general practice, who...

    Incorrect

    • You have been requested to evaluate a patient in your general practice, who has come in after discovering a new lump in her neck. The patient is in her mid-40s, has no significant medical history, and does not take any regular medications.

      Upon examination, you observe a small mass in the front of the neck that moves upwards when the patient swallows. There is no associated lymphadenopathy. You refer the patient for an ultrasound and biopsy, which reveals the presence of 'Orphan Annie eyes with psammoma bodies.'

      Based on this finding, what is the most probable diagnosis?

      Your Answer: Multinodular goitre

      Correct Answer: Papillary thyroid cancer

      Explanation:

      The patient has a painless lump in the thyroid gland that moves on swallowing, indicating thyroid pathology. The biopsy result of Orphan Annie eyes with psammoma bodies is a characteristic finding in papillary thyroid cancer, which is a slow-growing malignancy with less likelihood of lymphadenopathy. Graves’ disease is an incorrect diagnosis as it would not present with this appearance on biopsy and would likely exhibit signs of thyrotoxicosis. A multinodular goitre also does not have this appearance and may cause a thyrotoxic state. Anaplastic carcinoma is a more aggressive thyroid malignancy that readily invades nearby tissues and has a different histological appearance with spindle cells and giant cells.

      Thyroid cancer rarely causes hyperthyroidism or hypothyroidism as it does not usually secrete thyroid hormones. The most common type of thyroid cancer is papillary carcinoma, which is often found in young females and has an excellent prognosis. Follicular carcinoma is less common, while medullary carcinoma is a cancer of the parafollicular cells that secrete calcitonin and is associated with multiple endocrine neoplasia type 2. Anaplastic carcinoma is rare and not responsive to treatment, causing pressure symptoms. Lymphoma is also rare and associated with Hashimoto’s thyroiditis.

      Management of papillary and follicular cancer involves a total thyroidectomy followed by radioiodine to kill residual cells. Yearly thyroglobulin levels are monitored to detect early recurrent disease. Papillary carcinoma usually contains a mixture of papillary and colloidal filled follicles, while follicular adenoma presents as a solitary thyroid nodule and malignancy can only be excluded on formal histological assessment. Follicular carcinoma may appear macroscopically encapsulated, but microscopically capsular invasion is seen. Medullary carcinoma is associated with raised serum calcitonin levels and familial genetic disease in up to 20% of cases. Anaplastic carcinoma is most common in elderly females and is treated by resection where possible, with palliation achieved through isthmusectomy and radiotherapy. Chemotherapy is ineffective.

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      • Endocrine System
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  • Question 23 - A 27-year-old man who has been morbidly obese for the past six years...

    Correct

    • A 27-year-old man who has been morbidly obese for the past six years is being evaluated at the surgical bariatric clinic. Which hormone release would lead to an increase in appetite in this patient?

      Your Answer: Ghrelin

      Explanation:

      Leptin is a hormone that reduces appetite, while ghrelin is a hormone that stimulates appetite. Although thyroxine can increase appetite, it is not consistent with the symptoms being described.

      The Physiology of Obesity: Leptin and Ghrelin

      Leptin is a hormone produced by adipose tissue that plays a crucial role in regulating body weight. It acts on the hypothalamus, specifically on the satiety centers, to decrease appetite and induce feelings of fullness. In cases of obesity, where there is an excess of adipose tissue, leptin levels are high. Leptin also stimulates the release of melanocyte-stimulating hormone (MSH) and corticotrophin-releasing hormone (CRH), which further contribute to the regulation of appetite. On the other hand, low levels of leptin stimulate the release of neuropeptide Y (NPY), which increases appetite.

      Ghrelin, on the other hand, is a hormone that stimulates hunger. It is mainly produced by the P/D1 cells lining the fundus of the stomach and epsilon cells of the pancreas. Ghrelin levels increase before meals, signaling the body to prepare for food intake, and decrease after meals, indicating that the body has received enough nutrients.

      In summary, the balance between leptin and ghrelin plays a crucial role in regulating appetite and body weight. In cases of obesity, there is an imbalance in this system, with high levels of leptin and potentially disrupted ghrelin signaling, leading to increased appetite and weight gain.

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      • Endocrine System
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  • Question 24 - A 27-year-old mother is concerned about her infant's skin tone. The baby was...

    Correct

    • A 27-year-old mother is concerned about her infant's skin tone. The baby was delivered naturally 18 days ago and is now showing signs of jaundice. Despite having normal vital signs, what could be the possible reason for the baby's prolonged jaundice?

      Your Answer: Congenital hypothyroidism

      Explanation:

      The age of the baby is an important factor in determining the possible causes of neonatal jaundice. Congenital hypothyroidism may be responsible for prolonged jaundice in newborns. The following is a summary of the potential causes of jaundice based on the age at which it appears:

      Jaundice within 24 hours of birth may be caused by haemolytic disease of the newborn, infections, or G6PD deficiency.

      Jaundice appearing between 24-72 hours may be due to physiological factors, sepsis, or polycythaemia.

      Jaundice appearing after 72 hours may be caused by extrahepatic biliary atresia, sepsis, or other factors.

      Understanding Congenital Hypothyroidism

      Congenital hypothyroidism is a condition that affects approximately 1 in 4000 newborns. If left undiagnosed and untreated within the first four weeks of life, it can lead to irreversible cognitive impairment. Some of the common features of this condition include prolonged neonatal jaundice, delayed mental and physical milestones, short stature, a puffy face, macroglossia, and hypotonia.

      To ensure early detection and treatment, children are screened for congenital hypothyroidism at 5-7 days of age using the heel prick test. This test involves taking a small sample of blood from the baby’s heel and analyzing it for thyroid hormone levels. If the results indicate low levels of thyroid hormone, the baby will be referred for further testing and treatment.

      It is important for parents and healthcare providers to be aware of the signs and symptoms of congenital hypothyroidism and to ensure that newborns receive timely screening and treatment to prevent long-term complications. With early detection and appropriate management, children with congenital hypothyroidism can lead healthy and fulfilling lives.

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  • Question 25 - A 14-year-old girl is referred to the endocrine clinic by her GP due...

    Correct

    • A 14-year-old girl is referred to the endocrine clinic by her GP due to bed wetting episodes. She experiences constant thirst and frequent urination. A dipstick test reveals diluted urine with low osmolality, and her blood tests show hypernatremia with high serum osmolality. Her family has a history of diabetes insipidus. What is the most suitable follow-up examination?

      Your Answer: Water deprivation test

      Explanation:

      A water deprivation test is the most appropriate method for diagnosing diabetes insipidus. This test involves withholding water from the patient for a period of time to stimulate the release of antidiuretic hormone (ADH) and monitor changes in serum and urine osmolality. Other methods such as urinary sodium or bladder ultrasound scan are not as effective in diagnosing this condition.

      The water deprivation test is a diagnostic tool used to assess patients with polydipsia, or excessive thirst. During the test, the patient is instructed to refrain from drinking water, and their bladder is emptied. Hourly measurements of urine and plasma osmolalities are taken to monitor changes in the body’s fluid balance. The results of the test can help identify the underlying cause of the patient’s polydipsia. Normal results show a high urine osmolality after the administration of DDAVP, while psychogenic polydipsia is characterized by a low urine osmolality. Cranial DI and nephrogenic DI are both associated with high plasma osmolalities and low urine osmolalities.

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  • Question 26 - Which one of the following is not a result of cortisol in the...

    Incorrect

    • Which one of the following is not a result of cortisol in the stress response?

      Your Answer: Anti-inflammatory effects

      Correct Answer: Hypoglycaemia

      Explanation:

      Hyperglycaemia is caused by an effect that opposes insulin.

      Surgery triggers a stress response that causes hormonal and metabolic changes in the body. This response is characterized by substrate mobilization, muscle protein loss, sodium and water retention, suppression of anabolic hormone secretion, activation of the sympathetic nervous system, and immunological and haematological changes. The hypothalamic-pituitary axis and the sympathetic nervous systems are activated, and the normal feedback mechanisms of control of hormone secretion fail. The stress response is associated with increased growth hormone, cortisol, renin, adrenocorticotropic hormone (ACTH), aldosterone, prolactin, antidiuretic hormone, and glucagon, while insulin, testosterone, oestrogen, thyroid stimulating hormone, luteinizing hormone, and follicle stimulating hormone are decreased or remain unchanged. The metabolic effects of cortisol are enhanced, including skeletal muscle protein breakdown, stimulation of lipolysis, anti-insulin effect, mineralocorticoid effects, and anti-inflammatory effects. The stress response also affects carbohydrate, protein, lipid, salt and water metabolism, and cytokine release. Modifying the response can be achieved through opioids, spinal anaesthesia, nutrition, growth hormone, anabolic steroids, and normothermia.

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      • Endocrine System
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  • Question 27 - A 32-year-old woman comes to the clinic complaining of fatigue and weight loss...

    Correct

    • A 32-year-old woman comes to the clinic complaining of fatigue and weight loss that has been going on for 6 weeks. She reports feeling dizzy when she stands up and has noticed a tan all over her body, despite it being early spring in the UK.

      Upon conducting a blood test, it is found that she has hyponatraemia and hyperkalaemia, with normal full blood count results. A lying-standing blood pressure reading shows a postural drop of 36 mmHg.

      What is the most likely cause of this woman's presentation in the UK, given her symptoms and test results?

      Your Answer: Autoimmune adrenal insufficiency

      Explanation:

      The most likely cause of this patient’s symptoms is autoimmune adrenalitis, which is responsible for the majority of cases of hypoadrenalism. In this condition, auto-antibodies attack the adrenal gland, leading to a decrease or complete loss of cortisol and aldosterone production. This results in low blood pressure, electrolyte imbalances, and a significant drop in blood pressure upon standing. The body compensates for the low cortisol levels by producing more adrenocorticotropic hormone (ACTH), which can cause the skin to take on a bronze hue.

      While iodine deficiency is a common cause of hypothyroidism worldwide, it is not consistent with this patient’s presentation. A mutation in the HFE gene can lead to haemochromatosis, which can cause reduced libido and skin darkening, but it does not match the electrolyte abnormalities described. Pituitary tumors and tuberculosis can also cause hypoadrenalism, but they are less common in the UK compared to autoimmune causes.

      Addison’s disease is the most common cause of primary hypoadrenalism in the UK, with autoimmune destruction of the adrenal glands being the main culprit, accounting for 80% of cases. This results in reduced production of cortisol and aldosterone. Symptoms of Addison’s disease include lethargy, weakness, anorexia, nausea and vomiting, weight loss, and salt-craving. Hyperpigmentation, especially in palmar creases, vitiligo, loss of pubic hair in women, hypotension, hypoglycemia, and hyponatremia and hyperkalemia may also be observed. In severe cases, a crisis may occur, leading to collapse, shock, and pyrexia.

      Other primary causes of hypoadrenalism include tuberculosis, metastases (such as bronchial carcinoma), meningococcal septicaemia (Waterhouse-Friderichsen syndrome), HIV, and antiphospholipid syndrome. Secondary causes include pituitary disorders, such as tumours, irradiation, and infiltration. Exogenous glucocorticoid therapy can also lead to hypoadrenalism.

      It is important to note that primary Addison’s disease is associated with hyperpigmentation, while secondary adrenal insufficiency is not.

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      • Endocrine System
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  • Question 28 - Which hormonal agent will enhance the secretion of water and electrolytes in pancreatic...

    Correct

    • Which hormonal agent will enhance the secretion of water and electrolytes in pancreatic juice?

      Your Answer: Secretin

      Explanation:

      The secretion of water and electrolytes is stimulated by secretin, while cholecystokinin stimulates the secretion of enzymes. Secretin generally leads to an increase in the volume of electrolytes and water in secretions, whereas cholecystokinin increases the enzyme content. Secretion volume is reduced by somatostatin, while aldosterone tends to preserve electrolytes.

      Pancreatic Secretions and their Regulation

      Pancreatic secretions are composed of enzymes and aqueous substances, with a pH of 8 and a volume of 1000-1500ml per day. The acinar cells secrete enzymes such as trypsinogen, procarboxylase, amylase, and elastase, while the ductal and centroacinar cells secrete sodium, bicarbonate, water, potassium, and chloride. The regulation of pancreatic secretions is mainly stimulated by CCK and ACh, which are released in response to digested material in the small bowel. Secretin, released by the S cells of the duodenum, also stimulates ductal cells and increases bicarbonate secretion.

      Trypsinogen is converted to active trypsin in the duodenum via enterokinase, and trypsin then activates the other inactive enzymes. The cephalic and gastric phases have less of an impact on regulating pancreatic secretions. Understanding the composition and regulation of pancreatic secretions is important in the diagnosis and treatment of pancreatic disorders.

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      • Endocrine System
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  • Question 29 - A 4-month-old boy is being evaluated for possible hypospadias. In boys with this...

    Incorrect

    • A 4-month-old boy is being evaluated for possible hypospadias. In boys with this condition, where is the urethral opening most commonly found?

      Your Answer: On the distal dorsal surface of the penis

      Correct Answer: On the distal ventral surface of the penis

      Explanation:

      The anomaly is typically situated on the underside and frequently towards the end. Urethral openings found closer to the body are a known occurrence. Surgical removal of the foreskin may hinder the process of repairing the defect.

      Understanding Hypospadias: A Congenital Abnormality of the Penis

      Hypospadias is a congenital abnormality of the penis that affects approximately 3 out of 1,000 male infants. It is usually identified during the newborn baby check, but if missed, parents may notice an abnormal urine stream. This condition is characterized by a ventral urethral meatus, a hooded prepuce, and chordee in more severe forms. In some cases, the urethral meatus may open more proximally in the more severe variants, but 75% of the openings are distally located.

      There appears to be a significant genetic element to hypospadias, with further male children having a risk of around 5-15%. While it most commonly occurs as an isolated disorder, associated conditions include cryptorchidism (present in 10%) and inguinal hernia.

      Once hypospadias has been identified, infants should be referred to specialist services. Corrective surgery is typically performed when the child is around 12 months of age. It is essential that the child is not circumcised prior to the surgery as the foreskin may be used in the corrective procedure. In boys with very distal disease, no treatment may be needed.

      Overall, understanding hypospadias is important for parents and healthcare providers to ensure proper management and treatment for affected infants.

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      • Endocrine System
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  • Question 30 - A 30-year-old female with a two year history of type 1 diabetes presents...

    Correct

    • A 30-year-old female with a two year history of type 1 diabetes presents with a two day history of colicky abdominal pain and vomiting. She has been relatively anorexic and has cut down on her insulin today as she has not been able to eat that much.

      On examination she has a sweet smell to her breath, has some loss of skin turgor, has a pulse of 102 bpm regular and a blood pressure of 112/70 mmHg. Her abdomen is generally soft with some epigastric tenderness.

      BM stix analysis reveals a glucose of 19 mmol/L (3.0-6.0).

      What investigation would be the most important for this woman?

      Your Answer: Blood gas analysis

      Explanation:

      Diabetic Ketoacidosis: Diagnosis and Investigations

      Diabetic ketoacidosis (DKA) is a serious complication of diabetes that can lead to life-threatening consequences. Symptoms include ketotic breath, vomiting, abdominal pain, and dehydration. To confirm the diagnosis, it is essential to prove the presence of acidosis and ketosis. The most urgent and important investigation is arterial or venous blood gas analysis, which can reveal the level of acidosis and low bicarbonate.

      Other investigations that can be helpful include a full blood count (FBC) to show haemoconcentration and a raised white cell count, and urinalysis to detect glucose and ketones. However, venous or capillary ketones are needed to confirm DKA. A plasma glucose test is also part of the investigation, but it is not as urgent as the blood gas analysis.

      An abdominal x-ray is not useful in diagnosing DKA, and a chest x-ray is only indicated if there are signs of a lower respiratory tract infection. Blood cultures are unlikely to grow anything, and amylase levels are often raised but do not provide diagnostic information in this case.

      It is important to note that DKA can occur even if the plasma glucose level is normal. Therefore, prompt diagnosis and treatment are crucial to prevent complications and improve outcomes.

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